External fixators are attached to bones with percutaneous pins and wires inserted through soft tissues and bone increasing the risk of infections. Such infections compromise patient outcomes e.g., through pin loosening or loss, failure of fixator to stabilise the fracture, additional surgery, increased pain, and delayed mobilisation. These infections also impact the healthcare system for example, increased OPD visits, hospitalisations, treatments, surgeries and costs. Nurses have a responsibility in the care and management of patients with external fixators and ultimately in the prevention of pin-site infection. Yet, evidence on best practices in the prevention of pin-site infection is limited and variation in pin-site management practices is evident. Various strategies are used for the prevention of pin-site infection including the use of different types of non-medicated and medicated wound dressings. The aim of this retrospective study was to investigate the use of dry gauze or iodine tulle dressings for the prevention of pin-site infections in patients with lower limb external fixators. A retrospective study of patients with lower limb external fixators who attended the research site between 2015–2022. Setting & Sample: The setting was the outpatient's (OPD) orthopaedic clinic in a University Teaching Hospital in Dublin, Ireland. Eligibility Criteria:
Over the age of 16, treated with an Ilizarov, Taylor Spatial frame (TSF) or Limb Reconstruction System (LRS) external fixators on lower limbs, Pin-sites dressed with dry gauze or iodine tulle, Those with pre-existing infected wounds close to the pin site and/or were on long term antibiotics were excluded. Follow Up Period: From time of external fixator application to first pin-site infection or removal of external fixator. Outcome Assessment: The primary outcome was pin-site infection, secondary outcomes included but were not limited to frequency of pin-site infection according to types of bone fixation, frequency of pin/wire removal and hospitalisation due to infection. Data analysis: IBM SPSS Version 25 was used for statistical analysis. Descriptive and inferential statistics were conducted as appropriate. Categorical data were analysed by counting the frequencies (number and percentages) of participants with an event as opposed to counting the number of episodes for each event. Differences between groups were analysed using Chi-square test or Fisher's exact test, where appropriate. Continuous variables were reported using mean and standard deviations and difference analysed using a two-sample independent t-test or non-parametric test (Mann-Whitney), where appropriate. Using Kaplan-Meier, survival analysis explored time to development of infection. Ethical approval: granted by local institute Research Ethics Committee on 12th March 2018.Introduction
Methodology
Angular deformity in the lower extremities can result in pain, gait disturbance, deformity and joint degeneration. Guided growth modulation uses the tension band principle with the goal of treatment being to normalise the mechanical axis. To assess the success of this procedure we reviewed our results in an attempt to identify patients who may not benefit from this simple and elegant procedure. We reviewed the surgical records and imaging in our tertiary children's hospital to identify all patients who had guided growth surgery since 2007. We noted the patient demographics, diagnosis, peri-operative experience and outcome. All patients were followed until skeletal maturity or until metalwork was removed.Introduction
Materials and Methods
Dual mobility (DM) total hip arthroplasty (THA) prostheses are designed to increase stability. In the setting of primary and revision THA, DM THA are used most frequently for dysplasia and instability diagnoses, respectively. As the use of DM THA continues to increase, with 8,031 cases logged in the American Joint Replacement Registry from 2012–2018, characterizing Under IRB-approved implant retrieval protocol, 43 DM THA systems from 41 patients were included. Each DM THA component was macroscopically examined for standard damage modes. Clinically-relevant data, including patient demographics and surgical elements, were collected from medical records. Fretting and corrosion damage grading is planned, according to the Goldberg Introduction
Methods
Angular deformity in the lower extremities can result in pain, gait disturbance, cosmetic deformity and joint degeneration. Up until the introduction of guided growth in 2007, which has since become the gold standard, treatment for correcting angular deformities in skeletally immature patients had been either an osteotomy, a hemiepiphysiodesis, or the use of staples. We reviewed the surgical records and diagnostic imaging in our childrens hospital to identify all patients who had guided growth surgery since 2007. All patients were followed until skeletal maturity or until their metalwork was removed.Purpose
Methods
Our aim was to use CT Scanogram to evaluate fibular growth, and thus calculate normal growth velocity, which may aid in determining the timing of epiphysiodesis. Current understanding of normal lower limb growth and growth prediction originates in the work of Anderson et al published in the 1960s. There now exist several clinical and mathematical methods to aid in the treatment of leg length discrepancy, including the timing of epiphysiodesis. Early research in this area provided limited information on the growth of the fibula. It is now well recognized that abnormal growth of paired long bones may evolve into deformity of clinical significance. Existing work examining fibular growth used plain film radiography only. Computed Tomography (CT) scanogram is now the preferred method for evaluating leg length discrepancy in the paediatric population. We calculated fibular growth for 28 children (n = 28, 16 girls and 12 boys) presenting with leg length discrepancy to our unit. Mean age at presentation was 111.1 months (range 33 – 155 months). For inclusion, each child had to have at least five CT scanograms performed, at six monthly intervals. Fibular length was calculated digitally as the distance from the proximal edge of the proximal epiphysis to the most distal edge of the distal epiphysis. For calculation purposes, mean fibular length was determined from two measurements taken of the fibula. A graph for annual fibular growth was plotted and fibular growth velocity calculated. CT Scanogram may be used to calculate normal fibular growth in children presenting with leg length discrepancy.
The purpose of this study was to review the outcomes and complications of all circular external fixators (frames) used for the management of sterile and infected fracture non-unions in the lower limb in our institution over a twenty year period. We retrospectively reviewed a prospectively compiled database of all frames applied in our institution and identified all frames which were applied for acute lower limb trauma. We identified 76 non-unions in 76 patients. There were 22 femoral non-unions and 54 tibial non-unions. Five femoral non-unions and 12 tibial non-unions were confirmed infected. The mean time in frame was 281 days for a sterile non-union and 457 days for an infected non-union. There was a union rate of 87% for sterile non-unions and 71% of infected non-unions at cessation of treatment. Factors associated with persistent non-union included cigarette smoking, soft tissue complications, and excessive pin-site toilet by the patient. Lower-limb fracture non-unions can be extremely difficult to treat. The patients included in our study had previously undergone more traditional treatments in an attempt to establish union. The results presented demonstrate that circular frames are an excellent treatment modality in non-unions resistant to other forms of treatment. We would recommend this as a first line treatment for patients at higher risk of developing fracture non-union.
The purpose of this study was to review the outcomes of four children with genu valgum secondary to Hurler Syndrome treated with circular external fixators (frames) for angular correction. We retrospectively reviewed the medical and radiographic records of four children with Hurler Syndrome and genu valgum treated with frames. Three children had simultaneous bilateral tibial corrections. The fourth child had unilateral femoral correction. The mean age of the children was 14 years at application of frame. Mean duration of frame was 113 days for the tibial frames, and the femoral frame remained in-situ for 150 days. Correction was assessed clinically, and radiologically with x-rays and CT scannograms, with excellent results in all four cases. The complexities of each individual case necessitated specific and individualised treatment for each child. Complications included further deformities arising in treated and un-treated long-bones both during and after application of frame. Prior to the introduction of bone marrow transplantation, the average life expectancy of children with Hurler Syndrome was seven years. With bone marrow transplantation, affected children are now living much longer, and many develop characteristic long bone deformities in their lower limbs. These deformities are progressive and can be multifocal and polyostotic. Managament can be extremely challenging, and prior reports of management with hemiepiphysiodesis with staples and 8-plates have been mixed. We believe that this is the first series of circular frame lower limb reconstruction in children with Hurler Syndrome. The flexibility and adaptability of frames confers a unique advantage in the management of these complex deformities.
The purpose of this study was to review the outcomes and complications of all circular external fixators (frames) used for the management of acute lower limb trauma in our institution over a twenty year period. We retrospectively reviewed a prospectively compiled database of all frames applied in our institution and identified all frames which were applied for acute lower limb trauma. We identified 68 fractures in 63 patients. There were 11 femoral fractures and 57 tibial fractures. All fractures were classified using the AO Classification system, and most fractures were Type C fractures. We used an Ilizarov frame in 53 patients and a Taylor Spatial Frame in 15 patients. The mean time in frame was 365 days for a femoral fracture and 230 days for a tibial fracture. There were five tibial non-unions giving an overall union rate of 93%. Factors associated with non-union included high energy trauma and cigarette smoking. The vast majority of lower limb fractures can be treated using ‘conventional’ methods. Complex fractures which are not amenable to open reduction and internal fixation or cast immobilisation can be treated in a frame with excellent results. The paucity of published reports regarding the use of frames for complex trauma reflects the under-utilisation of the technique.
Developments in the use of ultrasound during pregnancy for assessment of fetal spine abnormalities indicate a need for accurate information about the antenatal development of the vertebral column. The published work is deficient in this regard, with available data examining only the period of 8–26 weeks. The aims of this study are to establish antenatal spine growth curves with fetal radiographs, to establish growth velocity curves for each anatomical spinal, region and to calculate the multiplier factor during antenatal life. 75 anteroposterior spine radiographs were retrieved from the fetal pathology unit. Cases with spinal anomalies were excluded from analysis. Individual vertebral regions were measured from radiographs with the method of Bagnall and colleagues,1 with use of DICOM software. Polynomial regression analysis was applied to each measurement with PASW statistics 18 (SPSS, Chicago, IL, USA).Introduction
Methods
Idiopathic scoliosis is a lateral curvature of the spine >10° as measured on a frontal plane radiograph by the Cobb angle. Important variables in assessing the risk of curve progression include a young age at presentation, female sex, a large amount of growth remaining, the rate of growth, the curve magnitude, and the curve location. Curves >20° have an inherently low risk of progression. Surgery is indicated for curves >50° or rapidly progressing curves. The timing of surgery is paramount in order to intervene in cases where rapid progression is evident to prevent further deterioration. There is a greater likelihood for more complex surgery to be required in major curves. At present, there are severe restrictions on resources to cater for patients with scoliosis. As a result, patients spend excessive periods on waiting lists prior to having their procedure. The aim of this study is to analyse the progression of curves of patients while on the waiting list and assess the cost implications of curve deterioration. A retrospective analysis of 40 cases of adolescent idiopathic scoliosis performed from between 2007-2010 was carried out. All radiographs at the time of being placed on the waiting list and the time of admission were reviewed to assess the Cobb angle. The radiographs were analysed independently by three spinal surgeons to determine what level of surgical intervention they would recommend at each time point. The final procedure performed was also recorded. A cost analysis was carried out of all of the expenses that are incurred as part of scoliosis surgery, including length of hospital stay, intensive care admission, spinal monitoring, implant cost, and the requirement for multiple procedures.Introduction
Methods
Injection studies had an impact on subsequent management in 88% of cases. Symptoms resolved with injection alone in 28% of patients with no communication versus 8% in those with a communication. Surgical plans were changed in over 20% of cases if a joint communication was found. There were no major complications reported (Joint sepsis or contrast allergy).
We would recommend joint injection be considered in all patients, especially if joint fusion is being considered. Contrast should be used in all cases to demonstrate any potential communications, which should be taken into consideration when surgical management plans are formulated. A significant number of patients will experience resolution of symptoms from injection alone, with no further intervention needed.
A 2002 study by Goldberg et al showed that surgery before age 10 for infantile onset idiopathic scoliosis (diagnosis <
4 years, Cobb angle =>
10°) preserved neither respiratory function nor cosmesis, and has not been contradicted. In 2005, Mehta re-emphasised scoliosis correction by serial cast-bracing, while Thompson et al reported satisfactory results with growing rods. An analysis of the status quo of a cohort of patients with infantile idiopathic scoliosis (other diagnoses and syndromes excluded), managed by cast-bracing, was undertaken, asking whether interim progress was acceptable or demanded a change of protocol. Of 35 patients born between October 1993 and December 2002,15 have completely resolved, age at diagnosis 1.6 ± 0.96 years, Cobb angle 20.3°±11.9, RVAD 11.1°±13.8, latest age 4.1± 2.3. 20 were prescribed cast-bracing, age at diagnosis 1.8±0.9 years, Cobb angle 47.3°±12.6, RVAD 29.6±24.5, age at treatment was 2.1±1.0 years. Cobb angle (p<
0.001) and RVAD (p=0.001) were larger in the treated group, but age at presentation was the same (p=0.473). Surgery was performed on 3 children unresponsive to initial casting, at ages 3.2, 3.6 and 3.7, and in 3 at ages 8.6, 10.1 and 11 years. 3 children, aged 6.0, 8.1 and 11.3 are out of brace with straight spines and 11 are stable in brace. Infantile idiopathic scoliosis seems programmed to resolve or progress according to initial severity and in line with growth rate. Those who respond to casting in infancy generally remain stable until near puberty when surgery is uncontroversial. Those who progress relentlessly and immediately in cast remain the issue, as reports of newer methods include a wide range of ages and diagnoses and give their outcome in terms of Cobb angle only. It has not yet been shown that any treatment will alter their prognosis so constant analysis of all outcome parameters is essential.
It is customary to analyse scoliosis as a mechanical failure: first there is a straight spine (=normal), then an habitual and collapsing posture (=disease) and finally, structural remodelling (Hueter-Volkmann effect = scoliosis). This hypothesis makes two practical predictions:
There is a disease process causing the pathological posture. The purpose of gatherings such as this is to identify this pathology, thus far without success. Early diagnosis will permit early non-operative treatment which will halt or reverse the remodelling and reduce the occurrence of severe deformity and the need for corrective spinal surgery. The failure of school scoliosis screening to achieve this end is well documented, but the consequence for the underlying hypothesis has not been analysed. Screening failed, not because it was unable to detect scoliosis, but because scoliosis did not behave as the hypothesis predicted.